12] Repeat this with the 20 or 40 X objective. For critical work this should be done for each objective. This is especially important for taking photographs and for examining minute, translucent specimens like fungi and algae. For our labs, it will be good to do this for the 10X objective at the start of each session. You need not do this for 4X and 40X. However, if you are having some problems resolving details, check to be sure that you have the condenser aligned and focused.

g] Remove excess solution by touching the side of a Kimwipe or paper towel to the narrow edges of the coverslip. Be careful not to drag out your sections with the excess solution.

Light is provided by a built in bulb which is reflected through the field iris diaphragm, the condenser, the condenser iris diaphragm, the specimen, the objective, the tube and the ocular.

Notice that we have 4, 10, 20, 40 & 100 X objectives. Always start with the 4 X objective to prevent damage to the other objectives which may collide with the specimen.

Brightness adjustment microscope

Because we will be using a lot of thick hand-sections in this class, it is vital that you learn how to achieve Kohler illumination. Otherwise, you will not be able to analyze your specimens.

if two polarizers are oriented at 90o to one another, no light will pass through the second one in the series. Verify this by holding one polarizer while looking at a bright object. Take a second polarizer in your other hand and superimpose it on the first. Turn either one until the light is completely blocked.

The best resolution occurs when all elements of the microscope are in perfect alignment and the iris diaphragms are properly adjusted to the best aperture. On simple microscopes you may not be able to alter the alignment of the different parts, but on these Leitz microscopes it is possible to align and focus the condenser to achieve "Kohler Illumination".

In optics, the distance from the middle of the lens to its focal point. Light rays run in parallel to one another, while lenses distort light rays.

If a crystalline or paracrystaile object is placed between crossed polarizers, it will depolarize the light which passes through it. This property is known as birefringence. Consequently, the birefringent material will be visible while all else will remain dark. Cell walls, crystals and some starch grains are birefringent, and become apparent using polarized light. This works with unstained and stained sections.

The ability to make free hand sections will allow you to quickly analyze plant organs without resorting to laborious procedures. A tremendous amount of information can be derived from hand sections. These do not need to be extremely thin to be of use. In addition, hand sections of a structure do not need to be complete or uniformly thin to be useful. Your initial attempts at hand sectioning will probably be frustrating, however, you will quickly become proficient. Hand sections also provide 3-D information which is not available with most commercial slides.

Optimal lighting levelon microscope

c] Place one end of the coverslip on the slide (near boundary with frosting) without touching the solution containing the specimens.

Air bubbles or spaces will interfere greatly with your observations. To avoid these when adding a coverslip do the following.

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It may be difficult to do this with the 100 X objective. However, if you achieve proper alignment with the 40 X objective, the 100 X will be similar.

As part of the first lab, we will be using different stains to study their effects an fresh specimens. Experiment with the aperture iris as you study these. Fresh sections are usually too thick for detailed examination at high magnification, but the aperture iris can be used to great effect with this type of material.

8] Thin sections can often be obtained by pressing the blade down on your forefinger and then slicing through the specimen several times.

IKI - This will stain starch blue-black to orange depending on the type of starch present. It will also stain nuclei a golden color. Cell walls also stain light yellow with IKI. It is frequently not necessary to remove IKI before viewing the sections.

The lens should be carefully lowered into the oil prior to focusing. Observe this with your naked eyes focusing on the objective and the specimen. Do NOT look through the oculars. Oil improves the optics because it unites the glass cover slip and the objective. It replaces air with oil. The oil has the same refractive index as glass. Thus less light scattering &  refraction occurs. Be sure that the specimen was in focus at 40X before switching to 100X. Avoid focusing down on the specimen with an oil immersion lens. Change the focus so that the objective is traveling away from the slide. If the image does not come into focus, reverse the direction until it does. When in doubt, STOP!!! & ask for HELP!!! The lens might be dirty or there may be some other problem. The oil also protects the objective lens from scratching.

Concentrateslightonto the specimen

Overall this a a awesome scope for the money. Glass is so very clear and the reticle is excellent too. It's just missing one thing.... illumination.

The light source is housed in the base of the microscope. It passes through the field iris diaphragm. The size of the field diaphragm is controlled by rotating a knurled ring which is concentric with it. The field diaphragm controls the area of illumination.

4] Use the knurled ring below the other ocular to focus it while looking through it with your other eye. You may not need to change the focus. However, experiment by rotating the knurled focusing ring to see its effect. My German friends have told me that the correct way to focus the second ocular is to make it more negative so it is out of focus, then rotate it in a positive direction until it is focused.

There are various control knobs on the microscope which affect the light path. In addition, there are knobs for coarse and fine focus, as well as knobs to move the stage.

Phloroglucinol-HCl - This stains lignified and suberized cell walls red-orange. The stain is colorless until it reacts with lignin or suberin. The reaction may take several minutes and works best without a coverslip. If you are going to use several stains or look at several specimens, stain with Phloroglucinol first, and set these aside until you have finished other things. Add a cover slip and observe. This stain contains 20% HCl. Consequently, clean up any spills, especially on the microscope stage, and avoid getting this on yourself.

Lightswitch microscope function

The oculars should be adjusted to suit both of your eyes. Note that there is a scale on the tube holding both objectives. We will label microscopes so that each student can work with the same instrument throughout the course. Grasp the adjustable knurled ring below each ocular with your thumb and forefinger and gently rotate it so that each is set at 64 which is its midpoint. Before you make any adjustments, place a slide on the stage and focus on part of the specimen.

Locate the coarse and fine focusing knobs on each side of your scope. Each knob does coarse and fine focusing. There is no separate knob for fine focusing. You will see how this works later. The rotation of this knob focuses the objective onto the specimen.

Although the light microscope is the most commonly used biological instrument, it is often used improperly. This may not matter so much with very thin commercial slides but proper alignment of the illumination system is essential for viewing thick sections and whole mounts. It is also crucial for photomicroscopy. You will be using microscopes throughout this class and for years to come. If you learn the simple lessons we will teach you today you will do much better in your work and see the exciting world of microscopy in a new light! (Sorry about the pun). The procedure we follow was developed by the German scientist, August Kohler (1866-1948), and it bears his name. Recently his ideas were used to make an advanced Electron Microscope by Zeiss. Thus, this procedure which was introduced in 1893 has been of lasting and value.

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Polarizing Filters - These cause light to vibrate in one plane. Light traveling along a straight line vibrates in all possible planes. Imagine many radii emanating from a common center. These would represent the many vibrational planes of the light beam. A polarizer cuts out all but one of these.

Because the lens systems in a microscope are composed of many lenses it is called compound. The typical illumination of specimens in which light passes through the specimen and travels to your eye is called Bright Field microscopy. Light has the following path.

2 waysto adjust lighton microscope

Toluidine Blue - This is the stain that we will use most frequently, so be sure you learn how to use it in the first few labs. It is a metachromatic (many colors) stain, and stains lignified walls blue-green. Unlignified walls with lots of pectin stain cherry red. However, if you over-strain (too long) with Toluidine blue, everything will be blue. Add several sections to a drop of water on a slide. Add a drop of Toluidine blue to this.

7] Reduce the field of illumination by rotating the knurled ring on the field diaphragm completely clockwise. Be gentle with the field diaphragm. It should close without any effort.

12] It is a good idea to view unstained sections prior to staining. Proper use of the aperture iris is important for this.

The condenser aligns and focuses light on the specimen. It has a long vertical knob [pointing down] on its left side as you face the scope. Rotation of the small knob at its tip, raises and lowers the condenser to achieve focus.

Slide Preservation - Slides can be saved for short periods by sealing the edges of the coverslip with freezing medium. This is used to stabilize tissues for cryosectioning and works well for saving slides. However, it only lasts for a day or two. Apply one generous coat and allow to dry. Then add a second coat. Staining intensity will degrade over time but slides can be saved for a long time in this state.

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i] Wipe excess fluid from the bottom of the slide or it will stick on the stage and make your life more miserable than it already is.

Sudan - This stains suberized cell walls and oil in cells. The stain is dissolved in alcohol. when the specimen is rinsed with water, waxy materials which have taken up the stain remain red, other areas are colorless. Place several drops of stain on the slide and add sections to it. The alcohol evaporates rapidly, so it is best to add a coverslip right away. It takes a few minutes for the stain to work, so you will need to add stain periodically to the edge of the coverslip to prevent the formation of air bubbles. Wash the stain out with water as described above. Look for red-orange areas.

11] Center the circle of light by using the two small adjustable knobs on the front of the condenser. When you are satisfied, expand the field so that the light fills it completely. However, do not fully open the field diaphragm. Open it just enough to extend beyond the field of view.

which of the three factors affecting image quality is altered by thelightsource?

3] Use only one eye [right eye with right ocular or left eye with left ocular] and focus the specimen with the coarse/fine focusing knob.

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1] Place a Band-Aid on the thumb of your left hand. Have the cotton portion on the bottom of your thumb. The thumb is a backstop for this operation.

h] if you have been using a stain, add water to one end of the coverslip while withdrawing the stain at the opposite end with a Kimwipe or towel. In most cases you do not need to get all of the stain out.

2] Place another on the end of your index finger. The index finger will control the height go the specimen, and thus its thickness.

e] Slowly lower the forceps until it touches the slide. By this time the coverslip should have touched the solution on the slide.

We will be using Leitz microscopes in this class, however, the instructions for correct alignment of the condenser will be applicable to other microscopes with adjustable condensers.

8] You should see a small circle of light. If you are lucky, it will be in the center of the field. However, it will most likely be off-center and out of focus. Let us know if you can't find it!!

Platform that supports a microscope slide

b] You will have many opportunities to work on your sectioning and staining in subsequent labs, so don't panic if you have trouble today. On the other hand, make the most of this first lab because you will have lots to do in the remaining labs.

10] Expand the field diaphragm by rotating its knurled ring counter-clockwise, until the light touches one edge of the field. If the light is perfectly centered it should touch the entire circumference of the field. This is unlikely.

The magnification of an image is primarily controlled by the objectives which are housed in a rotating nose piece. To change objectives you rotate the nosepiece, starting with the 4X objective. Do not start viewing by swinging in the 20 - 100 X objectives. These may be damaged if they hit the specimen. The magnification is indicated by a number on each objective. Furthermore there is a progression in size such that the longest objectives have greatest magnification. The distance between the objectives and the cover slip (working distance) decreases dramatically as the magnification of the objective increases.

Increases or decreases thelightintensity microscope

The 100 X objective is an oil immersion lens. Note the black line near the tip of the objective. This is used to identify an oil immersion lens. Place a small drop of oil on the objective lens. A small drop of oil must also be placed on the cover slip.

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Finally, there is a lever which controls the aperture iris. This improves contrast (difference between light & dark) especially at intermediate and high magnifications. Do NOT use this to increase or decrease brightness!!!

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15] Experiment with the aperture iris while viewing a prepared slide. Once you have achieved what you think gives the best image quality, remove one of the oculars and see how much of the field is occluded.

9] Use the vertical condenser adjusting knob to make the circle as small as possible by gently rotating it. This moves the condenser up and down. Do this carefully so that the circle of light is not pushed laterally. As you focus the field diaphragm you will notice that its halo turns from blue to red and red to blue. The best focus occurs when you adjust the condenser so that the halo is just between red and blue. This is a little hard to do so don't be too worried if you have some red or blue in the halo.

14] Remove one of the oculars and look directly down the tube at the light field. Close the iris so that it occludes 1/4 - 1/3 of the area. This should give the best contrast. Examine a specimen before and after adjusting the aperture iris. This should be done for each objective for critical viewing. In practice, you can experiment with this while viewing a specimen and adjust it without removing the ocular. Closing the aperture iris also increases depth of focus up to a point. Thus, more areas of a three dimensional specimen will be in focus If it is closed to much, a flat indistinct image results. The example shows part of a diatom frustule. There is little detail when the iris is wide open (top). When it is fully closed (middle) the contrast is increased but there are aberrations which make the small holes appear larger than they are in actuality. The outline of the small holes is also indistinct. When the iris is closed 25 - 30 % there is improved contrast and less aberration.

Once one of the lenses is focused an a specimen, the others should also be in focus when they are swung into place. This property is referred to by the term parafocal. However, in actual practice some adjustment is required when you switch from one objective to another. This usually presents little difficulty. However, you must be especially careful when switching from 10X to 40X and from 40X to 100X. We will often be using fresh sections and whole mounts in the class. These can be thick and irregular. Consequently, greater care must be taken when changing objectives. When in doubt, play it safe and ask for help until you get acquainted with the material you are studying.

3] Grasp the plant structure between your thumb and forefinger so that the top of the specimen extends above the level of your forefinger.

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10] Keep on slicing until you have some thin sections. These will appear translucent when seen against the dark background of your lab bench. In most cases, the sections will have thin and thick regions. As long as part of the section is thin, you may be able to use it, and thick sections are frequently OK.

Directly above this at a right angle to the condenser adjusting knob you will find a rod which controls a lens which can be swung in or out of place. This swinging lens is left out for low-power illumination [i.e. 4X], and swung into the light path for objectives of 10X or greater magnification. Failure to use this lens properly is the most common mistake that most people make. If you fail to use this properly you will not be able to see much, especially when we use thick sections or whole mounts.

5] Having the oculars focused will improve image quality and will decrease eye strain. Once this is done it need not be changed during a given session. However, it is a good habit to do this at the beginning of each lab. It is best done at 10X because there is less chance for errors at this magnification compared to 4 X.

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13] When working at 20 - 100 X it is important to adjust the condenser aperture iris. This is especially important for translucent structures. Closing this iris increases contrast. Thus something fuzzy becomes smooth and something faint becomes dark. It is usually possible to close the iris and judge its effects subjectively. However, there is a "tried & true" procedure which you should know.